Isoelectric focusing of human granulocyte lysosomal elastase in thin-layer polyacrylamide gels

A technique is described which allows isoelectric focusing of human granulocyte elastase in thin-layer polyacrylamide gels, with retention of between 70 and 90% of the elastolytic activity. Digestion of elastin was observed to occur between pH 8.13 and 8.3 as well as between pH 8.77 and 9.15. Detection of elastolytic activity and visualization of protein bands following staining of the gels, has been successfully attempted with as little as 20 μg of lysosomal extract (about 2 to 3 μg of elastase).     

Binding Specificity and Affinity of Acriflavine for Nucleic Acids

A set of conditions was developed for the specific binding of acriflavine to the DNA of intact squamous cells. This was achieved through a series of studies into the relative affinities for dye between DNA and various biopolymers by an agar gel diffusion technique. Specificity was ascertained by DNase and RNase treatment of the cells. The final conditions, based on an estimated DNA-to-dye ratio of 4:1, required a constant cell count of 100,000 and dye at a concentration of 0.0025 μg per ml in 10 ml of phosphate buffer, pH 6.0-7.4. These quantities were dictated by the sensitivity limitations of the analytical apparatus. To make use of standard fluorometric instrumentation, the whole cell population method for determining average values was followed. Free dye was analyzed after cell samples were stained, and the difference between this value and that of an aliquot of working dye was taken as the amount of bound dye. To ensure cell-free residues of dye, cells were removed by centrifugation through Teflon membrane filters. The average amount of dye which was bound to the DNA of normal squamous cells was 1.6 × 10^-7 μg (0.7 × 10^-15 mole) per cell, and the amount bound to HeLa cells was 2.3 × 10^-7 μg (1 × 10^-15 mole). These values were highly replicable, making it possible to use them as an expression of the DNA content of the cells. The mildness of the staining conditions, and the preservation of cellular integrity in this technique may permit quantitative measurements of the DNA content of living cells.     

Affinity separation of immunoglobulin G subclasses on dye attached poly(hydroxypropyl methacrylate) beads

Poly(hydroxypropyl methacrylate) [poly(HPMA)] gel beads with an average size of 150–200 μm were prepared by suspension polymerization of hydroxypropyl methacrylate (HPMA). The poly(HPMA) gel beads were characterized by swelling studies, surface area measurements, scanning electron microscopy (SEM) and elemental analysis. Poly(HPMA) gel beads had a specific surface area of 88.6 m²/g. The dye Reactive Green HE 4BD was chemically attached to yield dye-poly(HPMA) gel beads at an average concentration of 44.3 μmol dye/g bead with a swelling ratio of 75%. These dye attached gel beads were used in the separation of immunoglobulin-G (IgG) through adsorption–elution studies. The non-specific adsorption of IgG on the poly(HPMA) gel beads was 0.5 mg/g. The attachment of Reactive Green HE 4BD significantly increased the adsorption of IgG up to 71 mg/g. The Langmuir adsorption model was found to be applicable in interpretation of data pertaining to the adsorption studies of IgG with Reactive Green HE 4BD attached to the poly(HPMA) gel beads. The adsorption of IgG was found to be optimal at pH 7.0. The adsorption of IgG was observed to decrease by about 76% as the NaCl concentration was increased from 0.001 to 0.1 M. The IgG adsorption capacity of the dye attached poly(HPMA) gel beads was determined for a commercially available IgG solution to be 4.2 mg/g for IgG₁, 64.5 mg/g for IgG₂, 7.1 mg/g for IgG₃ and 10.8 mg/g for IgG₄. The Reactive Green HE 4BD attached poly(HPMA) gel beads have a significant adsorption capacity for IgG₂. The quantity of adsorbed IgG₂ is three times higher than the quantity of the other subclasses, IgG₁, IgG₃ and IgG₄. A similar adsorption behaviour was observed when the albumin free human plasma was used. The quantity of adsorbed IgG₂ is higher than the quantity of the other subclasses, IgG₁, IgG₃ and IgG₄. Adsorption capacities for albumin free human plasma were obtained as 6.4 mg/g for IgG₁, 67.8 mg/g for IgG₂, 5.2 mg/g for IgG₃ and 8.6 mg/g for IgG₄. Significant amount of the adsorbed IgG (up to 95%) was eluted in 1 h in the elution medium containing 2.0 M NaCl. Repeated adsorption/elution processes showed that these dye attached gel beads are suitable for IgG adsorption.     

Breakdown of brain tubulin by cerebral cathepsin D

The breakdown of cytoplasmic tubulin from brain (purified by ammonium sulfate fractionation and DEAE cellulose chromatography) by cathepsin D from brain (purified by ammonium sulfate fractionation and pepstatin Sepharose chromatography) was studied; changes in the intensity of tubulin gel bands were determined. The pH optimum of hemoglobin breakdown by cathepsin D was 3.2; the pH optimum for tubulin breakdown was 5.8; at pH 5.8 there was no significant hemoglobin breakdown by the enzyme. Tubulin breakdown had an apparent K_m of 1.8 × 10⁻⁵ M and a V_max of 0.56 μg tubulin (μg enzyme per min). The rate of breakdown was heterogeneous and studied on length of incubation; the major portion of tubulin was rapidly broken down and a smaller portion was more stable. The rate under our experimental conditions was 18%/h in the 1–4 h period and 2%/h after 4 h. This was not due to enzyme instability: after 4 h of inhibition freshly added tubulin was rapidly broken down, whereas freshly added enzyme did not increase the rate of breakdown. Thus breakdown heterogeneity was due to substrate (tubulin) heterogeneity. Pepstatin inhibited cathepsin D breakdown of tubulin at acid pH; at pH 7.6 it had no effect. Leupeptin was not inhibitory. We calculated that the cathepsin D content in brain, if fully active, could break down cytoplasmic tubulin with a half-life of 24 h, but it is likely that under in vivo conditions enzyme activity is greatly modified.     

Fusion between rat brain synaptosomes and phosphatidylserine liposomes

Synaptosomal fractions isolated from rat cerebral cortex were incubated in the absence and presence of phosphatidylserine (PS) liposomes. The PS treated synaptosomes yielded ligher bouyant bands when centrifugated on discontinuous sucrose gradients. In these bands an increase in the lipidic phosphorus/protein ratio together with a massive incorporation of PS and a relative decrease of phosphatidylcholine was observed. Besides, in the synaptosomes treated with PS (0.5–0.7 μg/mg protein). Na⁺, K⁺-ATPase activity was 30–50% higher than in the controls.

We have employed an assay for lipid mixing based on the self-quenching relief of octadecylrhodamine B fluorescence. The decrease in the self-quenching of the probe in the gradient bands of liposomes treated synaptosomes, besides the chemical analysis data, indicated that a fusion process between synaptosomes and liposomes has taken place. It is the first time that a fusion process is proved between native synaptosomes and an artificial lipidic membrane.     

Impact of the structure of arabinoxylan gels on their rheological and protein transport properties

Water-extractable arabinoxylan (WEAX) gels exhibiting different structural, rheological and protein transport properties were obtained upon laccase treatment of WEAX solutions, by modifying (i) the initial ferulic acid (FA) content of WEAX from 2.3 to 1.6 μg/mg AX or (ii) the AX concentration of the WEAX solution from 0.5 to 2.0% (w/v). WEAX gels with di and tri-ferulic acid (di-FA, tri-FA) contents varying from 6.2 to 3.2 μg/ml gel and from 0.61 to 0.27 μg/ml gel, respectively, were obtained. In parallel, increases in gel mesh sizes from 201 to 331 nm and reduction of G′ of gels from 160 to 12 Pa were observed. The differences in structural and rheological characteristics of WEAX gels were reflected in their capacity to load and release proteins of M_w ranging from 43 to 669 kDa. The possibility of modulating protein release from WEAX gels makes these gels potential candidates for the controlled delivery of proteins.     

The effects of actinomycin D and cordycepin on neurite formation and acetylcholinesterase activity in mouse neuroblastoma cells

Actinomycin D (actD) (0.003–0.10 μg/ml) and cordycepin (3–30 μg/ml) were used to examine the requirement of de novo RNA synthesis in the pH 6.6-induced expression of neurites and acetylcholinesterase activity in C-1300 mouse neuroblastoma cells. ActD at 0.03 and 0.10 μg/ml caused a pronounced stimulation in neurite formation following 20 h of treatment, although by 30 h exposure to actD (0.01–0.10 μg/ml), neurite formation had rapidly declined. Cordycepin (3–30 μg/ml) also inhibited neurite formation in a concentration- and time-dependent manner, although it did not produce an initial stimulation in neurite formation. The pH 6.6-induced increase in acetylcholinesterase activity was inhibited by both actD and cordycepin in a concentration- and time-dependent manner. Cell viabilities in the presence of actD and cordycepin were 90% or greater throughout the course of these studies.The effects of actD on [³H]uridine and [³H]leucine transport into cells and on incorporation into acid-insoluble material showed that actD inhibited RNA synthesis to a greater extent than it inhibited protein synthesis. Cordycepin caused only minor effects on [³H]uridine and [³H]leucine transport into cells and incorporation into acid-insoluble material; these effects were variable and neither concentration- nor time-dependent. The results of this study show that actD can inhibit the pH 6.6-induced expression of neurites and acetylcholinesterase activity in mouse neuroblastoma cells at concentrations which were relatively non-toxic and which caused a greater inhibition of RNA synthesis than of protein synthesis. This suggests that de novo RNA synthesis is required for the expression and maintenance of neurites and acetylcholinesterase activity in mouse neuroblastoma cells. Experiments with cordycepin were consistent with this conclusion.     

Influence of centrally administered peptides on ear withdrawal from heat in the rabbit

Certain neuropeptides previously linked to stress and implicated in CNS control of analgesia/algesia were tested using a recently developed analgesiometric model, the rabbit ear-withdrawal test. The latency to ear withdrawal increased in a dose-related manner after β-endorphin was injected intracerebroventricularly (IVC). Intermediate doses (0.5 and 1.0 μg) of adrenocorticotropic hormone (ACTH) caused hyperalgesia as indicated by decreases in latency. Corticotropin-releasing factor (CRF, 0.5 and 1.0 μg) also caused significant hyperalgesia late in the testing period. -Melanocyte stimulating hormone (-MSH, 0.25–2.0 μg), a molecule that shares the first 13 amino acid sequence with ACTH, and somatostatin (0.25–2.0 μg), caused no significant change in latency. However, 1.0 μg doses of each peptide antagonized the analgesic effect of β-endorphin (1.0 μg) in the following order of potency: ACTH = -MSH > CRF > somatostatin. The results support the idea that CNS peptides that are released during stress can exert opposing actions on acute pain, even though they may cause little effect alone.     

Effects of genistein and lavendustin on reproductive processes in domestic animals in vitro

The aim of our experiments was to study the influence of genistein [tyrosine kinase (TK) inhibitor with estrogenic activity] and lavendustin A (TK inhibitor without estrogenic activity) on female reproductive processes in domestic animals in vitro. It was found that genistein (0.001–1 μg/ml) increased IGF-I release by cultured bovine and porcine granulosa cells, but decreased its secretion by rabbit granulosa cells (0.01–10 μg/ml). Genistein stimulated progesterone secretion by bovine and rabbit granulosa cells (at 0.01–10 μg/ml), estradiol output by rabbit granulosa cells (at 1 μg/ml) and porcine ovarian follicles (at 10 μg/ml), as well as cAMP production by bovine (at 0.001–1 μg/ml) and rabbit (at 1 μg/ml) granulosa cells. No effects of genistein (at 10 μg/ml) on PGF-2 alpha and progesterone release by porcine ovarian follicles were observed. Genistein significantly (P < 0.05) stimulated the reinitiation and completion of nuclear maturation of porcine oocytes (at 5 μg/ml), as well as the preimplantation development of rabbit zygotes (at 1 μg/ml). Lavendustin A (0.001–1 μg/ml) increased IGF-I release by bovine (but not by porcine) granulosa cells, cAMP release by bovine granulosa cells, and PGF-2 alpha output by porcine ovarian follicles (at 10 μg/ml). Lavendustin (at 1 μg/ml) had no significant effect on IGF-I release by porcine granulosa cells, on estradiol and cAMP output by rabbit granulosa cells, or on progesterone secretion by porcine follicles (at 10 μg/ml). Inhibitory actions of lavendustin (at 10 μg/ml) on estradiol secretion by porcine follicles were also found. Furthermore, lavendustin, like genistein, promoted the reinitiation and completion of meiosis in porcine oocytes. The present study demonstrates a predominantly stimulatory effect of TK inhibition on endocrine and generative processes in domestic animals. The majority of these effects are similar for both compounds, indirectly suggesting that their action is due to tyrosine kinase inhibition and protein kinase A-stimulation, rather than estrogenic activity.     

Potentiation of bradykinin-induced vascular permeability increase by prostaglandin E2 and arachidonic acid in rabbit skin

The activity of prostaglandins (PG) in producing vascular permeability was quantitated by dye extraction method in skin of anaesthetized rabbits. PGE₁ and PGE₂ (0.01–10 μg) produced increase in vascular permeability. Activity was approximately equal to that of histamine (Hist) and 1/20 of that of bradykinin (BK) on a weight basis. The activity of PGF₁ and PGF₂ was only 1/20 of that of PGE₁ or PGE₂.

In spite of the relatively low potency of PGE₁ and PGE₂ in the rabbit, near threshold doses (0.1 or 1 μg) of PGE₂ could potentiate permeability responses to bradykinin (0.1 μg) by 10 or 100-fold, respectively. Equivalent doses (0.1 or 1 μg) of histamine could not potentiate the bradykinin responses. Arachidonic acid (AA) at 1 μg, produced a 10-fold potentiation in the permeability response to bradykinin (0.1 μg). Pretreatment of the rabbits with indomethacin (20 mg/kg, i.p.) reduced the responses of BK (0.1 μg) + AA (1 μg) down to a similar magnitude of those seen with bradykinin alone. However, indomethacin did not block responses to either, BK alone, BK + PGE₂, or BK + Hist. Various doses (1, 10, 100 and 300 μg) of arachidonic acid alone also produced increase in cutaneous vascular permeability, although its potency was only 1/3–1/8 of that of PGE₂. This activity of arachidonic acid was attributed in part to its bioconversion to PGE₂, since its activity was significantly reduced by the prostaglandin antagonist, diphloretin phosphate (DPP) (60 mg/kg, i.v.) and by indomethacin (20 mg/kg, i.p.), which blocks conversion of arachidonic acid to prostaglandins. Arachidonic acid may owe some of its permeability increaseing effects to histamine release, since its effects were also reduced by the anti-histamine, pyrilamine (2.5 mg/kg, i.v.).     

Niosomal Gel of Lornoxicam for Topical Delivery: In vitro Assessment and Pharmacodynamic Activity

Lornoxicam is a potent oxicam class of non steroidal anti-inflammatory agent, prescribed for mild to moderate pain and inflammation. Niosomal gel of lornoxicam was developed for topical application. Lornoxicam niosomes (Lor-Nio) were fabricated by thin film hydration technique. Bilayer composition of niosomal vesicles was optimized. Lor-Nio dispersion was characterized by DSC, XRD, and FT-IR. Morphological evaluation was performed by scanning electron microscopy (SEM). Lor-Nio dispersion was incorporated into a gel using 2% w/w Carbopol 980 NF. Rheological and texture properties of Lor-Nio gel formulation showed suitability of the gel for topical application. The developed formulation was evaluated for in vitro skin permeation and skin deposition studies, occlusivity test and skin irritation studies. Pharmacodynamic activity of the Lor-Nio gel was performed by carragenan-induced rat paw model. Optimized Lor-Nio comprised of Span 60 and cholesterol in a molar ratio of 3:1 with 30 μM dicetyl palmitate as a stabilizer. It had particle size of 1.125 ± 0.212 μm (d₉₀), with entrapment efficiency of 52.38 ± 2.1%. DSC, XRD, and IR studies showed inclusion of Lor into niosomal vesicles. SEM studies showed spherical closed vesicular structure with particles in nanometer range. The in vitro skin permeation studies showed significant improvement in skin permeation and skin deposition for Lor-Nio gel (31.41 ± 2.24 μg/cm², 30.079 ± 1.2 μg/cm²) over plain lornoxicam gel (7.37 ± 1.27 μg/cm², 6.6 ± 2.52 μg/cm²). The Lor-Nio gel formulation showed enhanced anti-inflammatory activity by exhibiting mean edema inhibition (87.69 ± 1.43%) which was significantly more than the plain lornoxicam gel (53.84 ± 2.21%).KEY WORDS: anti-inflammatory activity, lornoxicam, niosomes, rheology, texture analysis     

Rhodamine 123 as a probe of transmembrane potential in isolated rat-liver mitochondria: spectral and metabolic properties

The spectral and metabolic properties of Rhodamine 123, a fluorescent cationic dye used to label mitochondria in living cells, were investigated in suspensions of isolated rat-liver mitochondria. A red shift of Rhodamine 123 absorbance and fluorescence occurred following mitochondrial energization. Fluorescence quenching of as much as 75% also occurred. The red shift and quenching varied linearly with the potassium diffusion potential, but did not respond to ΔpH. These energy-linked changes were accompanied by dye uptake into the matrix space. Concentration ratios, in-to-out, approached 4000:1. A large fraction of internalized dye was bound. At concentrations higher than those needed to record these spectral changes, Rhodamine 123 inhibited ADP-stimulated (State 3) respiration of mitochondria (K_i = 12 μM) and ATPase activity of inverted inner membrane vesicles (K_i = 126 μM) and partially purified F₁-ATPase (K_i = 177 μM). The smaller K_i for coupled mitochondria was accounted for by energy-dependent Rhodamine 123 uptake into the matrix. Above about 20 nmol/mg protein (10 μM), Rhodamine 123 caused rapid swelling of energized mitochondria. Effects on electron-transfer reactions and coupling were small or negligible even at the highest Rhodamine 123 concentrations employed. Δψ-dependent Rhodamine 123 uptake together with Rhodamine 123 binding account for the intense fluorescent staining of mitochondria in living cells. Inhibition of mitochondria ATPase likely accounts for the cytotoxicity of Rhodamine 123. At concentrations which do not inhibit mitochondrial function, Rhodamine 123 is a sensitive and specific probe of Δψ in isolated mitochondria.     

Effects of cordycepin on macromolecular synthesis and development in the preimplantation mouse embryo

Investigations were conducted to test the effects of cordycepin, a naturally-occurring analog of adenosine, on gene activity in preimplantation mouse embryos. Embryos were explanted into culture at the 2-cell, morula and blastocyst stages, and incubated in the absence or presence of cordycepin (5–100 μg/ml) to determine the effects of the drug on continued development and macromolecular synthesis. Cordycepin at concentrations exceeding 10 μg/ml caused a dose-responsive inhibition of cleavage and blastulation of embryos in culture. Exposure of morulae and blastocysts to cordycepin concentrations of 10–100 μg/ml produced a dose- and time-dependent suppression of RNA synthesis as measured by incorporation of [³H]uridine. Suppression in blastocyst-stage embryos was enhanced by preincubation, and reached 70% after 4 h at 100 μg/ml. Cordycepin (50–100 μg/ml) reduced synthesis of major RNA components detected by electrophoresis, blocked incorporation of radioactivity into fractions bound by olido(dT)-cellulose, and produced a time- and dose-dependent reduction of protein synthesis in blastocysts, causing a maximum inhibition of 25% after 4 h of preincubation at 50 μg/ml.     

Retinaldehyde, a potent inhibitor of gap junctional intercellular communication

Retinaldehyde and retinoic acid are derivatives of vitamin A, and retinaldehyde is the precursor for the synthesis of retinoic acid, a well-known inhibitor of gap junctional intercellular communication. In this investigation, we asked the question if retinaldehyde has similar effects on gap junctions. Gap junctional intercellular communication was measured by scrape-loading and preloading dye-transfer methods, and studies were carried out mainly on cultured liver epithelial cells. Retinaldehyde was found to be a more potent inhibitor (dye transfer reduced by 50% at 2.8 μM) than retinoic acid (dye transfer reduced by 50% at 30 μM) and glycyrrhetinic acid (dye transfer reduced by 50% at 65 μM). Both the 11-cis and all-trans forms of retinaldehyde were equally effective. Retinaldehyde inhibited dye transfer of both anionic Lucifer yellow and cationic Neurobiotin. Inhibition by retinaldehyde developed in less than two minutes at 50 μM, but unlike the reported case with retinoic acid, recovery was slower, though full. In addition to liver epithelial cells, retinaldehyde inhibited gap junctional communication in lens epithelial cells, retinal pigment epithelial cells and retinal ganglion cells.     

Identification and analysis of hepatitis C virus NS3 helicase inhibitors using nucleic acid binding assays

Typical assays used to discover and analyze small molecules that inhibit the hepatitis C virus (HCV) NS3 helicase yield few hits and are often confounded by compound interference. Oligonucleotide binding assays are examined here as an alternative. After comparing fluorescence polarization (FP), homogeneous time-resolved fluorescence (HTRF®; Cisbio) and AlphaScreen® (Perkin Elmer) assays, an FP-based assay was chosen to screen Sigma’s Library of Pharmacologically Active Compounds (LOPAC) for compounds that inhibit NS3-DNA complex formation. Four LOPAC compounds inhibited the FP-based assay: aurintricarboxylic acid (ATA) (IC₅₀ = 1.4 μM), suramin sodium salt (IC₅₀ = 3.6 μM), NF 023 hydrate (IC₅₀ = 6.2 μM) and tyrphostin AG 538 (IC₅₀ = 3.6 μM). All but AG 538 inhibited helicase-catalyzed strand separation, and all but NF 023 inhibited replication of subgenomic HCV replicons. A counterscreen using Escherichia coli single-stranded DNA binding protein (SSB) revealed that none of the new HCV helicase inhibitors were specific for NS3h. However, when the SSB-based assay was used to analyze derivatives of another non-specific helicase inhibitor, the main component of the dye primuline, it revealed that some primuline derivatives (e.g. PubChem CID50930730) are up to 30-fold more specific for HCV NS3h than similarly potent HCV helicase inhibitors.     

Determination of methanol in whole blood by capillary gas chromatography with direct on-column injection

A gas chromatographic procedure was developed for the determination of methanol in small-volume whole blood samples. Samples (100–200 μl) were prepared by protein precipitation, with direct injection of the supernatant on a wide-bore capillary column. The recovery of methanol and acetonitrile (the internal standard) was approximately 90% and did not vary with sample volume. The assay was linear from 2 μg/ml (the limit of detection) through 1000 μg/ml and was highly reproducible (intra-day coefficient of variation <2.5%). Assay performance was assessed following exposure of rats to methanol. The results indicate that the present procedure is suitable for studies of methanol disposition in small rodent species.     

Structural and viral association comparisons of bovine zonae pellucidae from follicular oocytes, Day-7 embryos and Day-7 degenerated ova

Bovine zonae pellucidae (ZP) from follicular oocytes and from embryos and degenerated ova collected on Day 7 from superovulated cows were examined by scanning electron microscopy, by dimensional measurement, and by total protein determination. The number of plaque-forming units (PFU) of infectious bovine rhinotracheitis virus (IBRV) that were associated with ZP-intact embryos/ova from each of the 3 sources after in vitro exposure was also determined.

Scanning electron microscopy revealed that the surfaces of Day-7 embryos and degenerated ova were smoother than those of follicular oocytes. Mean dimensional measurements of the diameter/thickness of the ZP from follicular oocytes, Day-7 embryos, and degenerated Day-7 ova were 156.7 μm/12.3μm, 161.3μm/12.6μm, and 158.9μm/12.8μm, respectively. The mean total protein per ZP of follicular oocytes, embryos, and degenerated ova was 0.331 μg, 0.349 μg, and 0.254 μg, respectively. Considerable variability existed within groups, but significantly greater quantities of IBRV were associated with follicular oocytes (mean PFU/oocyte = 68.1) than with Day-7 embryos (mean PFU/embryo = 43.0; P<0.05) or with Day-7 ova (mean PFU/ovum = 31.9; P<0.01).

The reliability of using an assay for IBRV associated with nontransferable ova/embryos as an indicator of the presence or absence of the virus in transferable embryos from the same collection (Day 7) was supported. Although structural differences between the ZPs of follicular oocytes and Day-7 embryos were observed in this study, further investigation is needed to determine if there are differences in the protective function of the respective ZPs.     

GRF-induced feeding: Evidence for protein selectivity and opiate involvement

Growth hormone-releasing factor (GRF) is a hypothalamic peptide named for its ability to induce release of growth hormone from the anterior pituitary. GRF also acts as a neurotransmitter in the suprachiasmatic nucleus/medial preoptic area (SCN/MPOA) to stimulate food intake. The purpose of this series of experiments was to explore the nature of GRF-induced feeding, with a particular emphasis on macronutrient selectivity, and to examine the role of opiate activity in the paraventricular nucleus of the hypothalamus (PVN). Chow intake stimulated by GRF microinjection (1 pmol/0.5 μl) into the SCN/MPOA was blocked by injection of methyl-naltrexone (3 μg/0.5 μl) into the PVN. In animals habituated to macronutrient diets (Teklad, WI), GRF preferentially stimulated intake of protein at 2 and 4 h postinjection, whereas it had no effect on carbohydrate intake. Further, this effect was blocked by injection of naloxone (40 nmol/0.5 μl) into the PVN. Microinjection of morphine (0, 1, 10, and 17 μg/0.5 μl) into the PVN also specifically stimulated protein intake at 2 and 4 h postinjection. These results suggest that feeding derived from GRF actions in the SCN/MPOA is macronutrient selective, and is dependent on PVN opiate activity for expression.     

Bioactivity of two major constituents isolated from the essential oil of Artemisia judaica L

The essential oil of Artemisia judaica L., grown on Sinai Peninsula of Egypt, was extracted via hydrodistillation. Chromatographic separation on repeated silica gel columns led to isolate two compounds namely piperitone and trans-ethyl cinnamate. Insecticidal, antifeedant and antifungal properties of the isolated compounds were examined. Both compounds showed pronounced insecticidal and antifeedant activity against the third instar larvae of Spodoptera littoralis (Boisd). trans-Ethyl cinnamate (LD₅₀ = 0.37 μg/larva) was more toxic than piperitone (LD₅₀ = 0.68 μg/larva). The two isolated compounds revealed antifeedant activity in a concentration dependent manner, with complete feeding inhibition at a concentration of 1000 μg/ml. When tested for antifungal activity against four plant pathogenic fungi, the isolated compounds exhibited a moderate to high activity.     

Relationship between cellular RecA protein concentration and untargeted mutagenesis in Escherichia coli

We measured the production of untargeted mutations in the cI and cII genes of untreated λ phage undergoing a lytic cycle in UV-irradiated bacterial hosts. As previously shown, treatment with 4 μg/ml of rifampicin during post-irradiation incubation inhibited amplification of the RecA protein in these cells. In addition, we observed a decreased mutation rate compared to the untreated, irradiated bacteria. Treatment with 4 μg/ml or 8 μg/ml rifampicin did not prevent the UV induction of the umuDC operon, as judged by assay of β-galactosidase activity in a umuC-lacZ fusion strain. In contrast, the UV-induction of β-galactosidase in the sulA-lacZ fusion strain was decreased by 4 μg/ml rifampicin. The inhibition of untargeted mutagenesis by this drug treatment was also observed in a strain constitutive for SOS functions (lexA (Def)) as well as ina RecA-overproducing plasmid strain, that blocks induction of heat-shock proteins, factor(s) in wild-type recA⁺ cells. An htpR165-carrying strain, that blocks induction of heat-shock proteins, exhibited normal UV-promoted mutagenesis. A correlation was observed between the cellular concentration of RecA protein, increased spontaneously by a temperature shift in a lexA(Ts) strain, and the extent of UV-promoted untargeted mutagenesis. These results suggest a mechanistic role of RecA protein in this process.